// Lean compiler output
// Module: Std.Tactic.BVDecide.Bitblast.BVExpr.Circuit.Lemmas.Pred
// Imports: public import Std.Tactic.BVDecide.Bitblast.BVExpr.Circuit.Lemmas.Expr public import Std.Tactic.BVDecide.Bitblast.BVExpr.Circuit.Impl.Pred
#include <lean/lean.h>
#if defined(__clang__)
#pragma clang diagnostic ignored "-Wunused-parameter"
#pragma clang diagnostic ignored "-Wunused-label"
#elif defined(__GNUC__) && !defined(__CLANG__)
#pragma GCC diagnostic ignored "-Wunused-parameter"
#pragma GCC diagnostic ignored "-Wunused-label"
#pragma GCC diagnostic ignored "-Wunused-but-set-variable"
#endif
#ifdef __cplusplus
extern "C" {
#endif
LEAN_EXPORT lean_object* l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__9_splitter(lean_object*, lean_object*, lean_object*, lean_object*);
LEAN_EXPORT lean_object* l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__7_splitter(lean_object*, lean_object*, lean_object*, lean_object*);
LEAN_EXPORT lean_object* l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__9_splitter___boxed(lean_object*, lean_object*, lean_object*, lean_object*);
LEAN_EXPORT lean_object* l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__9_splitter___redArg(lean_object*, lean_object*);
LEAN_EXPORT lean_object* l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__7_splitter___redArg(lean_object*, lean_object*, lean_object*);
LEAN_EXPORT lean_object* l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__7_splitter___redArg(lean_object* x_1, lean_object* x_2, lean_object* x_3) {
_start:
{
if (lean_obj_tag(x_1) == 0)
{
lean_object* x_4; lean_object* x_5; uint8_t x_6; lean_object* x_7; lean_object* x_8; lean_object* x_9; 
lean_dec(x_3);
x_4 = lean_ctor_get(x_1, 0);
lean_inc(x_4);
x_5 = lean_ctor_get(x_1, 1);
lean_inc_ref(x_5);
x_6 = lean_ctor_get_uint8(x_1, sizeof(void*)*3);
x_7 = lean_ctor_get(x_1, 2);
lean_inc_ref(x_7);
lean_dec_ref(x_1);
x_8 = lean_box(x_6);
x_9 = lean_apply_4(x_2, x_4, x_5, x_8, x_7);
return x_9;
}
else
{
lean_object* x_10; lean_object* x_11; lean_object* x_12; lean_object* x_13; 
lean_dec(x_2);
x_10 = lean_ctor_get(x_1, 0);
lean_inc(x_10);
x_11 = lean_ctor_get(x_1, 1);
lean_inc_ref(x_11);
x_12 = lean_ctor_get(x_1, 2);
lean_inc(x_12);
lean_dec_ref(x_1);
x_13 = lean_apply_3(x_3, x_10, x_11, x_12);
return x_13;
}
}
}
LEAN_EXPORT lean_object* l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__7_splitter(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4) {
_start:
{
lean_object* x_5; 
x_5 = l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__7_splitter___redArg(x_2, x_3, x_4);
return x_5;
}
}
LEAN_EXPORT lean_object* l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__9_splitter___redArg(lean_object* x_1, lean_object* x_2) {
_start:
{
lean_object* x_3; lean_object* x_4; lean_object* x_5; 
x_3 = lean_ctor_get(x_1, 0);
lean_inc(x_3);
x_4 = lean_ctor_get(x_1, 1);
lean_inc_ref(x_4);
lean_dec_ref(x_1);
x_5 = lean_apply_2(x_2, x_3, x_4);
return x_5;
}
}
LEAN_EXPORT lean_object* l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__9_splitter(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4) {
_start:
{
lean_object* x_5; 
x_5 = l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__9_splitter___redArg(x_3, x_4);
return x_5;
}
}
LEAN_EXPORT lean_object* l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__9_splitter___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4) {
_start:
{
lean_object* x_5; 
x_5 = l___private_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred_0__Std_Tactic_BVDecide_BVPred_bitblast_match__9_splitter(x_1, x_2, x_3, x_4);
lean_dec_ref(x_1);
return x_5;
}
}
lean_object* initialize_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Expr(uint8_t builtin);
lean_object* initialize_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Impl_Pred(uint8_t builtin);
static bool _G_initialized = false;
LEAN_EXPORT lean_object* initialize_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Pred(uint8_t builtin) {
lean_object * res;
if (_G_initialized) return lean_io_result_mk_ok(lean_box(0));
_G_initialized = true;
res = initialize_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Lemmas_Expr(builtin);
if (lean_io_result_is_error(res)) return res;
lean_dec_ref(res);
res = initialize_Std_Tactic_BVDecide_Bitblast_BVExpr_Circuit_Impl_Pred(builtin);
if (lean_io_result_is_error(res)) return res;
lean_dec_ref(res);
return lean_io_result_mk_ok(lean_box(0));
}
#ifdef __cplusplus
}
#endif
